Microwaves can control a single quantum bit more precisely than ever before, creating a device similar to a quantum ...

Fermilab’s SQMS Center is on a mission to realize inherently scalable “qudit-based” quantum computing and quantum ...

The three-dimensional world of ordinary experience—the universe filled with galaxies, stars, planets, houses, boulders, and ...

Quantum computers that correct their own errors usually require hundreds of thousands of qubits. Start-up Nord Quantique ...

These innovations are expected to significantly advance the realization of practical quantum computing ... The creation of a quantum circuit generator has been crucial in developing effective ...

As quantum computing hardware advances, the demand for scalable, precise, and fully automated verification techniques for ...

Nord Quantique unveils Tesseract Code, a breakthrough in quantum error correction that boosts efficiency and reduces system size.

According to New Scientist, this particular composition is what makes time crystals a perfect candidate for a quantum computer circuit board because qubits would be “spread out and always in ...

Quantum advantage: Schematic diagram of the Zuchongzhi-3 chip. 105 qubits and 182 couplers are integrated on the same chip to perform quantum random circuit sampling tasks. (Courtesy: USTC) ...

spurring investment and interest in quantum computing. Multiple quantum technologies are being explored, including superconducting circuits, ion traps (used in television technology) and photonic ...

Quantum Circuits is a spinout from Yale University, including Rob Schoelkopf, the Sterling Professor of Applied Physics at Yale and one of the founders of the superconducting quantum computing field.